A 60-μf capacitor is connected in series with an impedance coil whose resistance and inductance are, respectively, 15 ohms and 0.15 henry. Calculate the resonant frequency of the circuit. Also determine the Q of the circuit, using Equation: (f2-f1)/fr= R/2πfrL=R/XL =1/Q Q= 2πfrL/R =(2πL/R ) x (103/(2π√(LC))= (103/R)x√(L/C)
A 60-μf capacitor is connected in series with an impedance coil whose resistance and inductance are, respectively, 15 ohms and 0.15 henry. Calculate the resonant frequency of the circuit. Also determine the Q of the circuit, using Equation: (f2-f1)/fr= R/2πfrL=R/XL =1/Q Q= 2πfrL/R =(2πL/R ) x (103/(2π√(LC))= (103/R)x√(L/C)
Electricity for Refrigeration, Heating, and Air Conditioning (MindTap Course List)
10th Edition
ISBN:9781337399128
Author:Russell E. Smith
Publisher:Russell E. Smith
Chapter8: Basic Electric Motors
Section: Chapter Questions
Problem 25RQ: List the five capacitor replacement rules.
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- A 60-μf capacitor is connected in series with an impedance coil whose resistance and inductance are, respectively, 15 ohms and 0.15 henry. Calculate the resonant frequency of the circuit. Also determine the Q of the circuit, using Equation:
- (f2-f1)/fr= R/2πfrL=R/XL =1/Q
- Q= 2πfrL/R =(2πL/R ) x (103/(2π√(LC))= (103/R)x√(L/C)
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